RU98391U1 - VEHICLE FOR MAKING ALKALINE SUBSTANCES IN WATER - Google Patents

Abstract

The invention relates to a self-propelled water vehicle for introducing alkaline materials into bodies of water. The invention is characterized in that the water vehicle has at least one supply container for alkaline materials, at least one intake device for water from the body of water, at least one metering device for producing a suspension, and at least one delivery pump and at least one distributor nozzle, connected to the least one delivery pump, for spraying the suspension onto the water surface, the water vehicle being dimensioned with regard to dimensions and empty weight such that it can be transported overland to the respective usage location thereof using a transport vehicle.

Description

The utility model relates to a floating vehicle for introducing alkaline substances for neutralization into acidic water bodies and subsequent maintenance of these water bodies. In particular, the so-called reservoirs remaining after open-cast mining, which, due to their history of occurrence, have high acidity and, in connection with the influx of acidic groundwater, require very long follow-up maintenance in terms of maintaining a neutral water regime. A utility model also relates to a device for introducing alkaline substances into water bodies.

Without creating neutral and capable of obtaining permits regarding the hydrochemistry of conditions in such reservoirs, their inclusion in open flowing reservoirs is impossible. In addition, the contact of acidic groundwater in water bodies remaining after open work with the atmosphere leads to ongoing oxidation processes, in particular, the conversion of ferrous iron to ferric, etc., which further increases the acid potential in the reservoir and thus the reservoir becomes acid generator and downstream areas are exposed to acidic ground and, in the case, also surface water.

Therefore, in addition to initial neutralization, in most cases, periodically repeated additional maintenance is required in the form of treatment of such reservoirs to maintain neutral conditions.

It is known from the prior art that using the so-called lake method, both initial neutralization and subsequent maintenance of such reservoirs are possible.

In DE 19961243 it is described that by resuspension by ash of power plants formed after burning brown coal with still present base capacity, neutralization of acidic water bodies remaining after open work can be carried out. However, this method is limited to places where this waste is present nearby. Delivery of this kind of materials at a large distance is not justified for cost reasons.

Another method described in DE 103 04 009.9 aims at distributing alkaline active substances in a pond using a lake technique, such as calcium hydroxide (Ca (OH) ₂ ), quicklime (CaO) or the corresponding dolomites or sodium lye, when using special distribution devices, which, if possible, a lot of the substance used turns into alkalinity in the lake and thus a high coefficient of efficiency is achieved during neutralization. For this, the switchgear is formed in the form of a distribution pipeline 500-2000 m long and 5-40 cm in diameter, which floats in the lake with the help of floats. However, the cost of this method in many cases is unacceptable, so that until now it has almost not been used.

DE 20 2004 002 159.5 describes a system that consists of a combination of a vehicle with containers or silos for bulk material, an intermediate storage tank and a floating mobile device for introducing substances in the form of a container floating on a pontoon with a number of outlets that are drawn by a floating vessel means (tug) through an open reservoir. The distribution of possible substances used is carried out through special devices on mobile floating blocks. However, with this kind of solution in many applications, it is not feasible that any economically viable projects are possible.

The objective of the utility model is to create a mobile device designed for introducing alkaline active substances into acidic waters, both during initial neutralization and subsequent maintenance, which is very simple in design, provides high power density when introducing substances, in particular, in combination with a high degree of reactions of alkaline substances used, and can be used without large costs and expenses in various places to neutralize water bodies.

According to a utility model, the problem is solved by using a self-propelled floating means for introducing alkaline substances into water bodies due to the fact that the floating means has at least one spare tank for alkaline substances, at least one suction device for absorbing water from the reservoir, at least one metering device for preparing the slurry, as well as at least one transfer pump and at least one distribution nozzle connected to at least one transfer pump for I spray the suspension on the surface of the water, and the floating vehicle, in terms of dimensions and empty weight, is defined so that it can be transported by means of a vehicle by land to the appropriate destination.

In the proposed floating model, according to the utility model, various devices necessary for water neutralization, namely, a suction device for taking water from a lake, a metering device for preparing a suspension of collected water and alkaline substances used or used, a transporting unit for the suspension and a spraying device suspensions on the water surface are combined into a highly mobile technical unit in such a way that for the specific conditions of the respective reservoir with Optimum conditions are created for maximum profitability. The floating facility is designed so that it can be transported by land vehicles and delivered to any place on shore using mobile assistive devices. The creation of reserves of substances for neutralization is provided in such a way that both solid and liquid substances can be used. Due to the spraying of the suspension on the surface through the distribution nozzle, a large radius of action is achieved, with the help of a relatively small number of trips, a large surface of the reservoir can be processed. As a result, it provides optimum cost and fast processing of acidic reservoirs with a high efficiency, both within the framework of initial neutralization and subsequent processing for maintenance.

As sources of alkalinity, quicklime, quicklime, lime or dolomite milk, calcium hydroxide, dolomite lime hydroxide and comparable products can be used. The mixing of these products in the water stream is carried out mainly on the suction side of the conveying unit using a metering device that precisely controls the concentration of the alkali substance used in the suspension to be prepared.

According to a first preferred embodiment of the utility model, it is provided that the floating vessel has a length of 5-15 m, mainly 8-12 m, a width of 2-4 m, mainly 3-3.5 m and a height of 1.5-4 m. on the one hand, a sufficiently high loading capacity is ensured - the spare capacity has a capacity of ≥3 m ³ alkaline substances. On the other hand, it is ensured that the floating vehicle, since it is loaded onto the appropriate vehicle, can be transported on it in open streets between different places of use. For this, the empty weight of the floating means is preferably a maximum of 20 tons, preferably a maximum of 12 tons. The concentration of substances required per unit surface area of the reservoir at an economically optimal flow rate of the substance at a speed of movement of the floating means, which preferably lies in the range from 2 to 30 km / h, and the concentration of the suspension installed in the metering device is controlled in such a way that the complete conversion of substances in the pond is achieved. Separate cycles of movement of a floating craft are determined by time and place, depending on the morphology and weather conditions at the corresponding place.

The concentration of substances in the suspension to be sprayed can be controlled using a control device or the amount of alkaline substances used in the metering device for regulating the amount of alkaline substances used in the suction pipe of the pump that pumps the suspension, or using the amount of water that is sucked from the lake.

According to another preferred embodiment of the utility model, a suction opening of the suction device is provided on the front side of the floating means. This position in the direction of movement of the vessel ensures that the pressure head that occurs when the speed of the vessel is energetically used to transport water in the preparation of the suspension.

In particular, at the beginning of the neutralization of the reservoir, for example, the reservoir remaining after open work, it still has a very low pH value and thus greatly affects corrosion. In this regard, accordingly, at least the sheathing of the floating vessel proposed according to the utility model consists of a stainless material, preferably a stainless metal material. Preferably, the cladding is predominantly made of aluminum.

For uniform and covering a large area of spraying of an alkaline suspension, the design and orientation of the at least one distribution nozzle provided, according to the utility model, on a floating vessel is crucial. Therefore, according to another preferred embodiment, it is provided that the floating means has two distribution nozzles and, accordingly, each of the distribution nozzles sprays the suspension, respectively, on each side of the floating means at an angle (α) of 30 ° -110 ° to the direction of movement of the floating means and simultaneously at an angle (β ) 10 ° -60 ° to the water surface. It is preferable that the distribution nozzles are defined and interact with the at least one transfer pump in such a way that the suspension is sprayed with an exit velocity of 5-50 m / s.

In addition to spraying on the surface of the alkaline suspension, it may also make sense to feed the suspension directly into the deep layers of water, in particular hypolimnion. For this, the floating means below the waterline preferably has at least one dispensing nozzle for introducing the suspension into the deep layers of the water.

The problem is also solved by using a system for introducing alkaline substances into a body of water, moreover, the system may include a floating vehicle according to any one of paragraphs 1-11 of the utility model formula, as well as a vehicle for land transport of a floating vehicle, a device with a reserve of alkaline or alkaline substances, from which can be loaded with a floating facility.

As a vehicle, a heavy vehicle is preferably used. The device with a supply of alkaline or alkaline substances is preferably made in the form of a tank car, so that the complete mobility of the entire system is ensured.

Below, the utility model is explained in more detail using the example implementation shown in the drawing. The drawing shows the following:

figure 1 - self-propelled floating means for introducing alkaline substances into the reservoir, a side view in partial section, according to a utility model;

figure 2 - spraying a suspension prepared from an alkaline substance and lake water through the distribution nozzles of the floating means of figure 1, side view;

figure 3 - spraying the suspension of the floating means of figure 1, a top view;

figure 4 - floating device according to figure 1 when immersed in a vehicle;

figure 5 - launching the floating means of figure 1;

Fig.6 - loading of the floating means of Fig.1 with an alkaline substance for spraying on the water surface.

1, a self-propelled floating means for introducing alkaline substances into a body of water is proposed in accordance with a utility model. In this case, the floating device is made in the form of a bot 1 and includes on the aft side the control wheelhouse 1a, as well as drive and control devices (both not shown). According to a utility model, in the hold of the bot 1 are located: a reserve tank 2 for alkaline substances, a suction device 3 for water from the reservoir to be neutralized, a metering device 4 for preparing a suspension of the withdrawn water and an alkaline substance in the reserve tank 2 and a transfer pump 5. Transfer pump 5 is connected to two distribution nozzles 6a, 6b located on the front deck for spraying the suspension formed in the metering device 4 on the water surface to be neutralized and a reservoir.

Further, in this case, the bot 1 includes another nozzle 6c, which is located in the keel area of the bot 1 and is directed in depth, so that the suspension prepared in the metering device 4 can be pumped into the deeper layers of water by means of a transfer pump 5. A control device provided in the hold 1b of the vessel is also not provided, by which the concentration of the suspension in the metering device 4 can be precisely controlled.

According to the present utility model, the bot 1 with respect to its size and its empty weight is made in such a way that it can be transported by land using a vehicle 7 (see FIGS. 4 and 5) to its respective place of use. For this, bot 1 has a length of 5-15 m, mainly 8-12 m, a width of 2-4 m, mainly 3-3.5 m and a height of 1.5-4 m. The empty weight of the bot is a maximum of 20 tons, in this case 10 tons, so that when immersed using the transport device 7, it can be transported along open roads between various places of application without difficulty. The carrying capacity of bot 1 is also about 10 tons, so that when fully loaded, the total mass is 20 tons at the beginning of the driving cycle. Since an acidic pond, especially at the beginning of neutralization, contains highly corrosive substances, at least the lining of bot 1 is made of corrosion-resistant material, in particular aluminum.

According to a utility model, a suspension prepared in a metering device 4 is sprayed on a surface of a reservoir through a system of dispensing nozzles. It consists of one or several separate nozzles rigidly or movably located in the nose region of the bot 1. As already mentioned, the distribution nozzle system in this case is formed by two rotary distribution nozzles 6c, 6b located on the front deck. They, as shown in figure 3, are located next to each other and thus overlap the side of the left side (nozzle 6a) and the side of the right side (nozzle 6b) of the bot 1. Only for reasons of clarity, the nozzles 6a, 6b in the side view of figures 1 and 2, as well as 4 -: depicted one after another. In this case, the distribution nozzles can be adjusted both in the horizontal direction (in the range of angle α, see FIG. 3) and in the vertical direction (in the range of angle β). So distribution nozzles can be installed respectively at an angle α 30 ° -110 ° to the direction of movement of the bot 1 and at the same time at an angle β 10 ° -60 ° to the water surface. Further, the sizes of the distribution nozzles 6a, 6b are determined in such a way and they interact with the transfer pump 5 so that the suspension prepared in the metering device 4 is sprayed on the water surface with an exit velocity of 5-50 m / s. Due to this, the spectrum of droplets is directed and the water surface on both sides of the bot in the form of a carpet is covered with an alkaline suspension, as shown in Fig. 3, and the width of the resulting processing carpet is mainly 10-80 m on both sides of the bot 1.

The concentration of the substance required per unit area of the water surface, at an economically optimal flow rate of the substance, is regulated using the speed of the vessel in the range from 2 to 30 km / h, the concentration of the suspension prepared in the metering device is regulated in such a way that the complete conversion of substances in the reservoir is achieved. Separate cycles of the vessel's movement in time and place are determined in this case depending on the morphology and weather conditions at a particular place.

The concentration of the substance in the suspension to be sprayed can be controlled in the metering device 4 using a control device or by controlling the amount of alkaline substances used in the suction pipe of the pump 5 pumping the suspension, or the amount of water that is sucked from the lake.

The principle of the utility model is explained below again using a specific example.

The proposed transportable floating vehicle (bot) 1 with a total mass of 20 tons and a payload of alkaline substances UT moves in the reservoir to be treated at a speed of 25 km / h. Through the hole on the nose of the bot 1, which is located under water, the lake water required for the preparation of the suspension enters the suction pipe of the pump 5 pumping the suspension in an amount of 500 m ³ / h. In the suction pipe of the pump 5 through the metering device 4 the alkaline substance transported from the reserve tank 2 of the bot 1 is supplied in an amount of 100 m ³ / h, so that a 20% suspension is formed. This slurry is sent by a transfer pump 5 through a pipe system under a pressure of 4 bar, required for spraying over a large area, to the distribution nozzles 6a, 6b. The suspension flies out of the distribution nozzles 6a, 6b at a speed of 25 m / s left and right to the direction of movement of the bot 1 at an angle α to the direction of motion equal to 80 ° and is distributed over the water surface, so that a strip like a processed carpet is formed on the left and right next to the bot water, respectively, 30 m wide, in which the alkaline substance reacts with lake water and is completely transformed. The existing concentration on the treated surface of 125,000 m ² for 10 m creates on the surface of the lake the preferred conditions for 100% conversion of the substance in the reservoir to be treated. The concentration of the substance, respectively, of the alkaline material used in the effluent suspension is selected to the conditions of the reservoir using the metering device 4 and the regulatory system. Separate routes of bot 1 are formed in such a way that, taking into account the morphology of the corresponding reservoir and the air flows prevailing on the water surface, the entire volume of the lake located in the hypolimnion of the reservoir is uniformly treated with alkaline substance.

While in this case the bot is equipped with cabin 1a, so that the driver directly controls the route and controls it, it is clear that the routes can be controlled remotely from the coast using GPS support.

Figure 4-8 shows the proposed in accordance with the present utility model system for introducing alkaline substances into the reservoir. It includes a bot 1, as described above, as well as a transport device 7 for land transport of the bot 1 and a device 8 with a supply of alkaline substance or alkaline substances from which bot 1 can be loaded. The device 8 with a reserve is preferably made in the form of a tank car, and so way also mobile. Figure 4 shows the bot 1 in a state when it is immersed on the transport device 7. Figure 5 shows how the bot 1 on the shore of the reservoir to be neutralized, for example, a reservoir formed after the slave opened, using the ramp 7a, which is part of the transport means 7, descends into the water. The loading of the bot 1 occurs, respectively, for example, using a winch. Figure 6 shows how a bot 1 launched onto water immediately before the start of a movement cycle is loaded with an alkaline substance, for example, calcium hydroxide, using an appropriate pipeline. Other methods of loading with solid alkaline substances are just as possible, for example, using a dump truck.

Claims (13)

1. Self-propelled floating means (1) for introducing alkaline substances into a reservoir, characterized in that it contains at least one spare tank (2) for alkaline substances, at least one suction device (3) for water from a reservoir at least one metering device (4) for preparing the suspension, as well as at least one transfer pump (5) and at least one distribution nozzle (6a, 6b) connected to the transfer pump for spraying the suspension onto water surface, moreover a floating means (1) part size and empty weight is designed so that it by the conveying means (7) is transported terrestrial paths to its destination. 2. The floating facility according to claim 1, characterized in that it has a length of 5 to 15 m, preferably 8 to 12 m, a width of 2 to 4 m, preferably 3 to 3.5 m and a height of 1.5 up to 4 m. 3. The floating tool according to claim 1 or 2, characterized in that its empty weight is a maximum of 20 tons, preferably 12 tons 4. Floating equipment according to claim 1 or 2, characterized in that it contains at least one spare tank (2) with a capacity of ≥3 m ² . 5. Floating means according to claim 1 or 2, characterized in that the suction hole (3) of the suction device is located on the front side of the floating means (1). 6. Floating means according to claim 1 or 2, characterized in that at least the sheathing of the floating means (1) is made of stainless material. 7. The floating device according to claim 6, characterized in that the casing is mainly made of aluminum. 8. Floating means according to claim 1 or 2, characterized in that it contains two distribution nozzles (6a, 6b) and each of the distribution nozzles (6a, 6b) sprays the suspension on each side of the floating means (1) at an angle (α ) from 30 to 110 ° to the direction of movement of the floating means (1) and at the same time at an angle (β) from 10 to 60 ° to the water surface. 9. Floating means according to claim 1 or 2, characterized in that at least one distribution nozzle is configured to interact with at least one transfer pump (5) and has dimensions that allow the suspension to be discharged at a speed of 5 up to 50 m / s. 10. The floating facility according to claim 1 or 2, characterized in that it comprises a driving device providing a speed of 2 to 30 km / h. 11. Floating means according to claim 1 or 2, characterized in that it contains at least one distribution nozzle (6c) under the waterline for supplying the suspension to deeper layers of the reservoir. 12. A system for introducing alkaline substances into a body of water, containing a floating device (1) according to any one of claims 1-11, as well as a transport device (7) for ground transportation of a floating device (1) and a device (8) with an alkaline substance reserve or alkaline substances, designed to load a floating product (1). 13. The system according to item 12, in which the device with a reserve is made in the form of a tank car.